compiler/rustc_span/src/caching_source_map_view.rs - third_party/rust - Git at Google

 use crate::source_map::SourceMap;
 use crate::{BytePos, SourceFile, SpanData};
 use rustc_data_structures::sync::Lrc;
 use std::ops::Range;

 #[derive(Clone)]
 struct CacheEntry {
     time_stamp: usize,
     line_number: usize,
     // The line's byte position range in the `SourceMap`. This range will fail to contain a valid
     // position in certain edge cases. Spans often start/end one past something, and when that
     // something is the last character of a file (this can happen when a file doesn't end in a
     // newline, for example), we'd still like for the position to be considered within the last
     // line. However, it isn't according to the exclusive upper bound of this range. We cannot
     // change the upper bound to be inclusive, because for most lines, the upper bound is the same
     // as the lower bound of the next line, so there would be an ambiguity.
     //
     // Since the containment aspect of this range is only used to see whether or not the cache
     // entry contains a position, the only ramification of the above is that we will get cache
     // misses for these rare positions. A line lookup for the position via `SourceMap::lookup_line`
     // after a cache miss will produce the last line number, as desired.
     line: Range<BytePos>,
     file: Lrc<SourceFile>,
     file_index: usize,
 }

 impl CacheEntry {
     #[inline]
     fn update(
         &mut self,
         new_file_and_idx: Option<(Lrc<SourceFile>, usize)>,
         pos: BytePos,
         time_stamp: usize,
     ) {
         if let Some((file, file_idx)) = new_file_and_idx {
             self.file = file;
             self.file_index = file_idx;
         }

         let line_index = self.file.lookup_line(pos).unwrap();
         let line_bounds = self.file.line_bounds(line_index);
         self.line_number = line_index + 1;
         self.line = line_bounds;
         self.touch(time_stamp);
     }

     #[inline]
     fn touch(&mut self, time_stamp: usize) {
         self.time_stamp = time_stamp;
     }
 }

 #[derive(Clone)]
 pub struct CachingSourceMapView<'sm> {
     source_map: &'sm SourceMap,
     line_cache: [CacheEntry; 3],
     time_stamp: usize,
 }

 impl<'sm> CachingSourceMapView<'sm> {
     pub fn new(source_map: &'sm SourceMap) -> CachingSourceMapView<'sm> {
         let files = source_map.files();
         let first_file = files[0].clone();
         let entry = CacheEntry {
             time_stamp: 0,
             line_number: 0,
             line: BytePos(0)..BytePos(0),
             file: first_file,
             file_index: 0,
         };

         CachingSourceMapView {
             source_map,
             line_cache: [entry.clone(), entry.clone(), entry],
             time_stamp: 0,
         }
     }

     pub fn byte_pos_to_line_and_col(
         &mut self,
         pos: BytePos,
     ) -> Option<(Lrc<SourceFile>, usize, BytePos)> {
         self.time_stamp += 1;

         // Check if the position is in one of the cached lines
         let cache_idx = self.cache_entry_index(pos);
         if cache_idx != -1 {
             let cache_entry = &mut self.line_cache[cache_idx as usize];
             cache_entry.touch(self.time_stamp);

             return Some((
                 cache_entry.file.clone(),
                 cache_entry.line_number,
                 pos - cache_entry.line.start,
             ));
         }

         // No cache hit ...
         let oldest = self.oldest_cache_entry_index();

         // If the entry doesn't point to the correct file, get the new file and index.
         let new_file_and_idx = if !file_contains(&self.line_cache[oldest].file, pos) {
             Some(self.file_for_position(pos)?)
         } else {
             None
         };

         let cache_entry = &mut self.line_cache[oldest];
         cache_entry.update(new_file_and_idx, pos, self.time_stamp);

         Some((cache_entry.file.clone(), cache_entry.line_number, pos - cache_entry.line.start))
     }

     pub fn span_data_to_lines_and_cols(
         &mut self,
         span_data: &SpanData,
     ) -> Option<(Lrc<SourceFile>, usize, BytePos, usize, BytePos)> {
         self.time_stamp += 1;

         // Check if lo and hi are in the cached lines.
         let lo_cache_idx = self.cache_entry_index(span_data.lo);
         let hi_cache_idx = self.cache_entry_index(span_data.hi);

         if lo_cache_idx != -1 && hi_cache_idx != -1 {
             // Cache hit for span lo and hi. Check if they belong to the same file.
             let result = {
                 let lo = &self.line_cache[lo_cache_idx as usize];
                 let hi = &self.line_cache[hi_cache_idx as usize];

                 if lo.file_index != hi.file_index {
                     return None;
                 }

                 (
                     lo.file.clone(),
                     lo.line_number,
                     span_data.lo - lo.line.start,
                     hi.line_number,
                     span_data.hi - hi.line.start,
                 )
             };

             self.line_cache[lo_cache_idx as usize].touch(self.time_stamp);
             self.line_cache[hi_cache_idx as usize].touch(self.time_stamp);

             return Some(result);
         }

         // No cache hit or cache hit for only one of span lo and hi.
         let oldest = if lo_cache_idx != -1 || hi_cache_idx != -1 {
             let avoid_idx = if lo_cache_idx != -1 { lo_cache_idx } else { hi_cache_idx };
             self.oldest_cache_entry_index_avoid(avoid_idx as usize)
         } else {
             self.oldest_cache_entry_index()
         };

         // If the entry doesn't point to the correct file, get the new file and index.
         // Return early if the file containing beginning of span doesn't contain end of span.
         let new_file_and_idx = if !file_contains(&self.line_cache[oldest].file, span_data.lo) {
             let new_file_and_idx = self.file_for_position(span_data.lo)?;
             if !file_contains(&new_file_and_idx.0, span_data.hi) {
                 return None;
             }

             Some(new_file_and_idx)
         } else {
             let file = &self.line_cache[oldest].file;
             if !file_contains(&file, span_data.hi) {
                 return None;
             }

             None
         };

         // Update the cache entries.
         let (lo_idx, hi_idx) = match (lo_cache_idx, hi_cache_idx) {
             // Oldest cache entry is for span_data.lo line.
             (-1, -1) => {
                 let lo = &mut self.line_cache[oldest];
                 lo.update(new_file_and_idx, span_data.lo, self.time_stamp);

                 if !lo.line.contains(&span_data.hi) {
                     let new_file_and_idx = Some((lo.file.clone(), lo.file_index));
                     let next_oldest = self.oldest_cache_entry_index_avoid(oldest);
                     let hi = &mut self.line_cache[next_oldest];
                     hi.update(new_file_and_idx, span_data.hi, self.time_stamp);
                     (oldest, next_oldest)
                 } else {
                     (oldest, oldest)
                 }
             }
             // Oldest cache entry is for span_data.lo line.
             (-1, _) => {
                 let lo = &mut self.line_cache[oldest];
                 lo.update(new_file_and_idx, span_data.lo, self.time_stamp);
                 let hi = &mut self.line_cache[hi_cache_idx as usize];
                 hi.touch(self.time_stamp);
                 (oldest, hi_cache_idx as usize)
             }
             // Oldest cache entry is for span_data.hi line.
             (_, -1) => {
                 let hi = &mut self.line_cache[oldest];
                 hi.update(new_file_and_idx, span_data.hi, self.time_stamp);
                 let lo = &mut self.line_cache[lo_cache_idx as usize];
                 lo.touch(self.time_stamp);
                 (lo_cache_idx as usize, oldest)
             }
             _ => {
                 panic!();
             }
         };

         let lo = &self.line_cache[lo_idx];
         let hi = &self.line_cache[hi_idx];

         // Span lo and hi may equal line end when last line doesn't
         // end in newline, hence the inclusive upper bounds below.
         debug_assert!(span_data.lo >= lo.line.start);
         debug_assert!(span_data.lo <= lo.line.end);
         debug_assert!(span_data.hi >= hi.line.start);
         debug_assert!(span_data.hi <= hi.line.end);
         debug_assert!(lo.file.contains(span_data.lo));
         debug_assert!(lo.file.contains(span_data.hi));
         debug_assert_eq!(lo.file_index, hi.file_index);

         Some((
             lo.file.clone(),
             lo.line_number,
             span_data.lo - lo.line.start,
             hi.line_number,
             span_data.hi - hi.line.start,
         ))
     }

     fn cache_entry_index(&self, pos: BytePos) -> isize {
         for (idx, cache_entry) in self.line_cache.iter().enumerate() {
             if cache_entry.line.contains(&pos) {
                 return idx as isize;
             }
         }

         -1
     }

     fn oldest_cache_entry_index(&self) -> usize {
         let mut oldest = 0;

         for idx in 1..self.line_cache.len() {
             if self.line_cache[idx].time_stamp < self.line_cache[oldest].time_stamp {
                 oldest = idx;
             }
         }

         oldest
     }

     fn oldest_cache_entry_index_avoid(&self, avoid_idx: usize) -> usize {
         let mut oldest = if avoid_idx != 0 { 0 } else { 1 };

         for idx in 0..self.line_cache.len() {
             if idx != avoid_idx
                 && self.line_cache[idx].time_stamp < self.line_cache[oldest].time_stamp
             {
                 oldest = idx;
             }
         }

         oldest
     }

     fn file_for_position(&self, pos: BytePos) -> Option<(Lrc<SourceFile>, usize)> {
         if !self.source_map.files().is_empty() {
             let file_idx = self.source_map.lookup_source_file_idx(pos);
             let file = &self.source_map.files()[file_idx];

             if file_contains(file, pos) {
                 return Some((file.clone(), file_idx));
             }
         }

         None
     }
 }

 #[inline]
 fn file_contains(file: &SourceFile, pos: BytePos) -> bool {
     // `SourceMap::lookup_source_file_idx` and `SourceFile::contains` both consider the position
     // one past the end of a file to belong to it. Normally, that's what we want. But for the
     // purposes of converting a byte position to a line and column number, we can't come up with a
     // line and column number if the file is empty, because an empty file doesn't contain any
     // lines. So for our purposes, we don't consider empty files to contain any byte position.
     file.contains(pos) && !file.is_empty()
 }
	use crate::source_map::SourceMap;
	use crate::{BytePos, SourceFile, SpanData};
	use rustc_data_structures::sync::Lrc;
	use std::ops::Range;

	#[derive(Clone)]
	struct CacheEntry {
	time_stamp: usize,
	line_number: usize,
	// The line's byte position range in the `SourceMap`. This range will fail to contain a valid
	// position in certain edge cases. Spans often start/end one past something, and when that
	// something is the last character of a file (this can happen when a file doesn't end in a
	// newline, for example), we'd still like for the position to be considered within the last
	// line. However, it isn't according to the exclusive upper bound of this range. We cannot
	// change the upper bound to be inclusive, because for most lines, the upper bound is the same
	// as the lower bound of the next line, so there would be an ambiguity.
	//
	// Since the containment aspect of this range is only used to see whether or not the cache
	// entry contains a position, the only ramification of the above is that we will get cache
	// misses for these rare positions. A line lookup for the position via `SourceMap::lookup_line`
	// after a cache miss will produce the last line number, as desired.
	line: Range<BytePos>,
	file: Lrc<SourceFile>,
	file_index: usize,
	}

	impl CacheEntry {
	#[inline]
	fn update(
	&mut self,
	new_file_and_idx: Option<(Lrc<SourceFile>, usize)>,
	pos: BytePos,
	time_stamp: usize,
	) {
	if let Some((file, file_idx)) = new_file_and_idx {
	self.file = file;
	self.file_index = file_idx;
	}

	let line_index = self.file.lookup_line(pos).unwrap();
	let line_bounds = self.file.line_bounds(line_index);
	self.line_number = line_index + 1;
	self.line = line_bounds;
	self.touch(time_stamp);
	}

	#[inline]
	fn touch(&mut self, time_stamp: usize) {
	self.time_stamp = time_stamp;
	}
	}

	#[derive(Clone)]
	pub struct CachingSourceMapView<'sm> {
	source_map: &'sm SourceMap,
	line_cache: [CacheEntry; 3],
	time_stamp: usize,
	}

	impl<'sm> CachingSourceMapView<'sm> {
	pub fn new(source_map: &'sm SourceMap) -> CachingSourceMapView<'sm> {
	let files = source_map.files();
	let first_file = files[0].clone();
	let entry = CacheEntry {
	time_stamp: 0,
	line_number: 0,
	line: BytePos(0)..BytePos(0),
	file: first_file,
	file_index: 0,
	};

	CachingSourceMapView {
	source_map,
	line_cache: [entry.clone(), entry.clone(), entry],
	time_stamp: 0,
	}
	}

	pub fn byte_pos_to_line_and_col(
	&mut self,
	pos: BytePos,
	) -> Option<(Lrc<SourceFile>, usize, BytePos)> {
	self.time_stamp += 1;

	// Check if the position is in one of the cached lines
	let cache_idx = self.cache_entry_index(pos);
	if cache_idx != -1 {
	let cache_entry = &mut self.line_cache[cache_idx as usize];
	cache_entry.touch(self.time_stamp);

	return Some((
	cache_entry.file.clone(),
	cache_entry.line_number,
	pos - cache_entry.line.start,
	));
	}

	// No cache hit ...
	let oldest = self.oldest_cache_entry_index();

	// If the entry doesn't point to the correct file, get the new file and index.
	let new_file_and_idx = if !file_contains(&self.line_cache[oldest].file, pos) {
	Some(self.file_for_position(pos)?)
	} else {
	None
	};

	let cache_entry = &mut self.line_cache[oldest];
	cache_entry.update(new_file_and_idx, pos, self.time_stamp);

	Some((cache_entry.file.clone(), cache_entry.line_number, pos - cache_entry.line.start))
	}

	pub fn span_data_to_lines_and_cols(
	&mut self,
	span_data: &SpanData,
	) -> Option<(Lrc<SourceFile>, usize, BytePos, usize, BytePos)> {
	self.time_stamp += 1;

	// Check if lo and hi are in the cached lines.
	let lo_cache_idx = self.cache_entry_index(span_data.lo);
	let hi_cache_idx = self.cache_entry_index(span_data.hi);

	if lo_cache_idx != -1 && hi_cache_idx != -1 {
	// Cache hit for span lo and hi. Check if they belong to the same file.
	let result = {
	let lo = &self.line_cache[lo_cache_idx as usize];
	let hi = &self.line_cache[hi_cache_idx as usize];

	if lo.file_index != hi.file_index {
	return None;
	}

	(
	lo.file.clone(),
	lo.line_number,
	span_data.lo - lo.line.start,
	hi.line_number,
	span_data.hi - hi.line.start,
	)
	};

	self.line_cache[lo_cache_idx as usize].touch(self.time_stamp);
	self.line_cache[hi_cache_idx as usize].touch(self.time_stamp);

	return Some(result);
	}

	// No cache hit or cache hit for only one of span lo and hi.
	let oldest = if lo_cache_idx != -1 \|\| hi_cache_idx != -1 {
	let avoid_idx = if lo_cache_idx != -1 { lo_cache_idx } else { hi_cache_idx };
	self.oldest_cache_entry_index_avoid(avoid_idx as usize)
	} else {
	self.oldest_cache_entry_index()
	};

	// If the entry doesn't point to the correct file, get the new file and index.
	// Return early if the file containing beginning of span doesn't contain end of span.
	let new_file_and_idx = if !file_contains(&self.line_cache[oldest].file, span_data.lo) {
	let new_file_and_idx = self.file_for_position(span_data.lo)?;
	if !file_contains(&new_file_and_idx.0, span_data.hi) {
	return None;
	}

	Some(new_file_and_idx)
	} else {
	let file = &self.line_cache[oldest].file;
	if !file_contains(&file, span_data.hi) {
	return None;
	}

	None
	};

	// Update the cache entries.
	let (lo_idx, hi_idx) = match (lo_cache_idx, hi_cache_idx) {
	// Oldest cache entry is for span_data.lo line.
	(-1, -1) => {
	let lo = &mut self.line_cache[oldest];
	lo.update(new_file_and_idx, span_data.lo, self.time_stamp);

	if !lo.line.contains(&span_data.hi) {
	let new_file_and_idx = Some((lo.file.clone(), lo.file_index));
	let next_oldest = self.oldest_cache_entry_index_avoid(oldest);
	let hi = &mut self.line_cache[next_oldest];
	hi.update(new_file_and_idx, span_data.hi, self.time_stamp);
	(oldest, next_oldest)
	} else {
	(oldest, oldest)
	}
	}
	// Oldest cache entry is for span_data.lo line.
	(-1, _) => {
	let lo = &mut self.line_cache[oldest];
	lo.update(new_file_and_idx, span_data.lo, self.time_stamp);
	let hi = &mut self.line_cache[hi_cache_idx as usize];
	hi.touch(self.time_stamp);
	(oldest, hi_cache_idx as usize)
	}
	// Oldest cache entry is for span_data.hi line.
	(_, -1) => {
	let hi = &mut self.line_cache[oldest];
	hi.update(new_file_and_idx, span_data.hi, self.time_stamp);
	let lo = &mut self.line_cache[lo_cache_idx as usize];
	lo.touch(self.time_stamp);
	(lo_cache_idx as usize, oldest)
	}
	_ => {
	panic!();
	}
	};

	let lo = &self.line_cache[lo_idx];
	let hi = &self.line_cache[hi_idx];

	// Span lo and hi may equal line end when last line doesn't
	// end in newline, hence the inclusive upper bounds below.
	debug_assert!(span_data.lo >= lo.line.start);
	debug_assert!(span_data.lo <= lo.line.end);
	debug_assert!(span_data.hi >= hi.line.start);
	debug_assert!(span_data.hi <= hi.line.end);
	debug_assert!(lo.file.contains(span_data.lo));
	debug_assert!(lo.file.contains(span_data.hi));
	debug_assert_eq!(lo.file_index, hi.file_index);

	Some((
	lo.file.clone(),
	lo.line_number,
	span_data.lo - lo.line.start,
	hi.line_number,
	span_data.hi - hi.line.start,
	))
	}

	fn cache_entry_index(&self, pos: BytePos) -> isize {
	for (idx, cache_entry) in self.line_cache.iter().enumerate() {
	if cache_entry.line.contains(&pos) {
	return idx as isize;
	}
	}

	-1
	}

	fn oldest_cache_entry_index(&self) -> usize {
	let mut oldest = 0;

	for idx in 1..self.line_cache.len() {
	if self.line_cache[idx].time_stamp < self.line_cache[oldest].time_stamp {
	oldest = idx;
	}
	}

	oldest
	}

	fn oldest_cache_entry_index_avoid(&self, avoid_idx: usize) -> usize {
	let mut oldest = if avoid_idx != 0 { 0 } else { 1 };

	for idx in 0..self.line_cache.len() {
	if idx != avoid_idx
	&& self.line_cache[idx].time_stamp < self.line_cache[oldest].time_stamp
	{
	oldest = idx;
	}
	}

	oldest
	}

	fn file_for_position(&self, pos: BytePos) -> Option<(Lrc<SourceFile>, usize)> {
	if !self.source_map.files().is_empty() {
	let file_idx = self.source_map.lookup_source_file_idx(pos);
	let file = &self.source_map.files()[file_idx];

	if file_contains(file, pos) {
	return Some((file.clone(), file_idx));
	}
	}

	None
	}
	}

	#[inline]
	fn file_contains(file: &SourceFile, pos: BytePos) -> bool {
	// `SourceMap::lookup_source_file_idx` and `SourceFile::contains` both consider the position
	// one past the end of a file to belong to it. Normally, that's what we want. But for the
	// purposes of converting a byte position to a line and column number, we can't come up with a
	// line and column number if the file is empty, because an empty file doesn't contain any
	// lines. So for our purposes, we don't consider empty files to contain any byte position.
	file.contains(pos) && !file.is_empty()
	}